im not one hundred percent sure but i think it may be that energy "flows from one organism to the other then ends with the last animal.... and a cycle is something that can be renewed and reused.... now that is just a guess.... but to me it makes sense so good luck! somewhat...
A repeating process or flow of materials through a system is called a "cycle." It involves the continuous movement of materials or components through different stages or processes in a circular pattern. Examples include the water cycle, carbon cycle, and nitrogen cycle.
This describes a cycle, where materials are continuously moving through a system or process. This can involve various stages such as input, processing, output, and feedback loops that sustain the cycle. Examples include the water cycle in nature or the nutrient cycle in ecosystems.
Energy is required to drive the processes involved in recycling matter, such as breaking down materials, transportation, and reassembling them into new products. In nature, energy from the sun powers the cycle of matter through processes like photosynthesis and decomposition. In human-made recycling systems, energy is needed for collection, sorting, transportation, and processing of materials.
Heat can flow through different materials via conduction, convection, or radiation. Conduction is the transfer of heat through direct contact between materials, convection is the transfer of heat through a fluid medium, and radiation is the transfer of heat through electromagnetic waves. The rate of heat flow depends on the material's conductivity, density, and specific heat capacity.
Aquiclude materials are typically impermeable materials such as clay, shale, or unfractured crystalline rocks that restrict the flow of water. These materials prevent or hinder the movement of groundwater and create barriers for water flow.
The flow of energy occurs from the sun in photosynthetic organisms. Another examples is a food chain with the flow of energy from through organisms from a producer. The flow of materials describes the movement of materials or components.
A repeating process or flow of materials through a system is called a "cycle." It involves the continuous movement of materials or components through different stages or processes in a circular pattern. Examples include the water cycle, carbon cycle, and nitrogen cycle.
The nitrogen cycle
Matter.
related*
The flow of heat energy through materials.
Conductivity is the ability of a substance to allow the flow of energy or electricity. Materials with high conductivity, like metals, allow energy to flow easily, while insulators, like rubber or plastic, restrict the flow of energy.
This describes a cycle, where materials are continuously moving through a system or process. This can involve various stages such as input, processing, output, and feedback loops that sustain the cycle. Examples include the water cycle in nature or the nutrient cycle in ecosystems.
Energy does not move around in cycles. The reason is related to the Second Law of Thermodynamics. Here is an example: The energy from the Sun comes to Earth, where it maintains life. From Earth, the energy is radiated out into space, where it gets more and more diffuse. This energy can't be recovered again; it won't get back into the Sun - and most of it will not participate in the creation of new stars, either.
An insulator is a material that does not allow energy to pass through it easily. Insulators have high resistance to the flow of electrical current and are used to isolate or protect conductive materials from the flow of energy. Examples of insulators include rubber, glass, and ceramic.
A material that resists the flow of energy is called an insulator. Insulators have high resistance to the flow of heat or electricity, preventing the transfer of energy through them effectively. Examples of insulating materials include rubber, glass, and wood.
Energy cannot "flow" in a cycle, because it cannot be recycled the way materials can. Because of Thermodynamics, energy is constantly being lost to the environment as it flows down from producers to primary consumers and then to the tertiary consumers.Every time energy is needed to keep the system running.